FIBERTEK, INC.

We propose the novel approach of using chaotic micro-resonators on photonic integrated circuits to reduce the size, weight, and power (SWaP) and increase the stability of the random basis generation p ...

We propose a serially concatenated switchable asymmetric Mach Zehnder switching network on a silicon nitride photonic integrated circuit platform to provide flexible and switchable demodulation of sig ...

Diode-pumped lasers Space-based lasers Nd:YAG lasers Environmentally hardened lasers, Diode-pumped lasers Space-based lasers Nd:YAG lasers Environmentally hardened lasers

NASArsquo;s Space Communications and Navigation (SCaN) roadmap for 2025 and beyond shows the need for optical links for Earth, lunar, inter-planetary, and relay networks requiring 10-100x higher data ...

This proposed SBIR builds upon Fibertek#39;s NASA-funded Laser Communications Terminal (CLCT) heritage to develop new ultra-low SWaP-C technology to create a CubeSat/SmallSat Lunar Network Optical Ter ...

Fibertek proposes the design and fabrication of a versatile low size weight and power (SWaP) phase modulation unit capable high frequencty signals with characterization and compensation of its own int ...

Fibertek is pleased to submit this SBIR Phase I proposal to develop a low-SWaP, low-cost, entanglement-based quantum-application-enabling CubeSat payload for high-speed, secure communication between s ...

Fibertek proposes to develop a high efficiency, ultra-compact master oscillator/power amplifier (UCMOPA) for use in the next generation of space-based cloud and aerosol lidar systems. The Phase I goal ...

Fibertek, Inc. a critical components of a proposed Planetary Landing LIDAR System (PLLS).nbsp; Compared to the PLLS used on OSIRIS-Rex, our architecture achieves higher speed and higher resolution whi ...

This proposed SBIR will build on Fibertek#39;s NASA-funded Compact Laser Communications Terminal (CLCT) heritage to develop new ultra-low SWaP-c technology that can transform this unit into a Distribu ...